//
// Do NOT modify or remove this copyright and license
//
// Copyright (c) 2012 - 2020 Seagate Technology LLC and/or its Affiliates, All Rights Reserved
//
// This software is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
//
// ******************************************************************************************
// 
// \file smart.h
// \brief This file defines the functions related to SMART features on a drive (attributes, Status check)

#pragma once

#include "operations_Common.h"
#include "ata_helper.h"

#if defined (__cplusplus)
extern "C"
{
#endif

    typedef struct _smartLogData { 
        union {
        ataSMARTLog ataSMARTAttr;
#if !defined(DISABLE_NVME_PASSTHROUGH)
        nvmeSmartLog nvmeSMARTAttr;
#endif
        } attributes;
    } smartLogData; 

    #define MAX_ATTRIBUTE_NAME_LENGTH 43 //This leaves room for a NULL terminating character

    #define ATTRB_NUM_RETIRED_SECTOR    (5)
    #define ATTRB_NUM_SEEK_ERRORS       (7)
    #define ATTRB_NUM_POH               (9) //Power On Hours. 
    #define ATTRB_NUM_SHOCK_COUNT       (191)
    #define ATTRB_NUM_PENDING_SPARES    (197)
    #define ATTRB_NUM_CRC_ERROR         (199)

    //-----------------------------------------------------------------------------
    //
    // get_SMART_Attributes( tDevice * device )
    //
    //! \brief   Gets the SMART attributes
    //! 
    //  Entry:
    //!   \param[in]  device file descriptor
    //!   \param[out] smartAttrs structure that hold attributes. 
    //!
    //  Exit:
    //!   \return SUCCESS = good, !SUCCESS something went wrong see error codes
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int get_SMART_Attributes(tDevice *device, smartLogData * smartAttrs);

    OPENSEA_OPERATIONS_API void get_Attribute_Name(tDevice *device, uint8_t attributeNumber, char **attributeName);

    typedef enum _eSMARTAttrOutMode
    {
        SMART_ATTR_OUTPUT_RAW,
        SMART_ATTR_OUTPUT_ANALYZED
    }eSMARTAttrOutMode;

    //-----------------------------------------------------------------------------
    //
    // print_SMART_Attributes( tDevice * device )
    //
    //! \brief   Pulls the SMART attributes and parses them for display to the user
    //
    //  Entry:
    //!   \param[in]  device file descriptor
    //!   \param[in] outputMode -  mode to use for displaying the attributes
    //
    //  Exit:
    //!   \return SUCCESS = good, !SUCCESS something went wrong see error codes
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int print_SMART_Attributes(tDevice *device, eSMARTAttrOutMode outputMode);

    typedef enum _eSMARTTripInfoType
    {
        SMART_TRIP_INFO_TYPE_UNKNOWN,
        SMART_TRIP_INFO_TYPE_SCSI,
        SMART_TRIP_INFO_TYPE_ATA,
        SMART_TRIP_INFO_TYPE_NVME
    }eSMARTTripInfoType;

    typedef struct _smartTripInfo
    {
        bool informationIsValid;
        char reasonString[UINT8_MAX];//This is a string with a translatable reason for the trip. Only valid when the above bool is set. The fields below will also give the reason if you would like to use those instead.
        uint8_t reasonStringLength;//length of the string. If it is zero, then it was not used.
        eSMARTTripInfoType additionalInformationType;
        union
        {
            struct
            {
                uint8_t asc;
                uint8_t ascq;
            }scsiSenseCode;
            struct
            {
                uint8_t attributeNumber;//NOTE: This may not be available since the threshold sector has been obsolete for a long time. If this is zero, it is an invalid attribute number
                uint8_t thresholdValue;
                uint8_t nominalValue;
            }ataAttribute;
            struct
            {
                bool spareSpaceBelowThreshold;
                bool temperatureExceedsThreshold;//Above or below a threshold
                bool nvmSubsystemDegraded;
                bool mediaReadOnly;
                bool volatileMemoryBackupFailed;
                bool reservedBit5;//reserved as of nvme 1.3
                bool reservedBit6;//reserved as of nvme 1.3
                bool reservedBit7;//reserved as of nvme 1.3
            }nvmeCriticalWarning;
        };
    }smartTripInfo, *ptrSmartTripInfo;

    //-----------------------------------------------------------------------------
    //
    //  run_SMART_Check()
    //
    //! \brief   Description:  Function to run a SMART check on and ATA or SCSI device
    //
    //  Entry:
    //!   \param[in] device = file descriptor
    //!   \param[in] tripInfo = OPTIONAL pointer to a struct to get why a drive has been tripped (if available).
    //!
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = SMART tripped, IN_PROGRESS = warning condition detected (from SCSI SMART check), all others - unknown status or error occured
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int run_SMART_Check(tDevice *device, ptrSmartTripInfo tripInfo);

    //-----------------------------------------------------------------------------
    //
    //  ata_SMART_Check()
    //
    //! \brief   Description:  Function to perform an ATA SMART check on a device (sends SMART return status and checks that the rtfrs come back as expected)
    //
    //  Entry:
    //!   \param[in] device = file descriptor
    //!   \param[in] tripInfo = OPTIONAL pointer to a struct to get why a drive has been tripped (if available).
    //!
    //  Exit:
    //!   \return SUCCESS = SMART healthy, 
    //!           FAILURE = SMART tripped, 
    //!           COMMAND_FAILURE = unknown error/smart not enabled undefined status, 
    //!           UNKNOWN - didn't get back rtfrs, so unable to verify SMART status
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int ata_SMART_Check(tDevice *device, ptrSmartTripInfo tripInfo);

    //-----------------------------------------------------------------------------
    //
    //  scsi_SMART_Check()
    //
    //! \brief   Description:  Function to Perform a SMART check on a SCSI device
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param[in] tripInfo = OPTIONAL pointer to a struct to get why a drive has been tripped (if available).
    //!   
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = SMART tripped, IN_PROGRESS = warning condition detected, COMMAND_FAILURE = unknown error/smart not enabled undefined status, UNKNOWN - didn't get back rtfrs, so unable to verify SMART status
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int scsi_SMART_Check(tDevice *device, ptrSmartTripInfo tripInfo);

    //-----------------------------------------------------------------------------
    //
    //  nvme_SMART_Check(tDevice *device, ptrSmartTripInfo tripInfo)
    //
    //! \brief   Description:  Function to Perform a SMART check on a NVMe device
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param[in] tripInfo = OPTIONAL pointer to a struct to get why a drive has been tripped (if available).
    //!   
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = SMART tripped, IN_PROGRESS = warning condition detected, COMMAND_FAILURE = unknown error/smart not enabled undefined status, UNKNOWN - didn't get back rtfrs, so unable to verify SMART status
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int nvme_SMART_Check(tDevice *device, ptrSmartTripInfo tripInfo);

    //-----------------------------------------------------------------------------
    //
    //  is_SMART_Enabled(tDevice *device)
    //
    //! \brief   Description:  Function to check if SMART is enabled on a device
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   
    //  Exit:
    //!   \return true = enabled, false = not enabled (may not be supported or just not enabled)
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API bool is_SMART_Enabled(tDevice *device);

    OPENSEA_OPERATIONS_API bool is_SMART_Check_Supported(tDevice *device);

    OPENSEA_OPERATIONS_API int get_Pending_List_Count(tDevice *device, uint32_t *pendingCount);

    OPENSEA_OPERATIONS_API int get_Grown_List_Count(tDevice *device, uint32_t *grownCount);

    //-----------------------------------------------------------------------------
    //
    //  sct_Set_Feature_Control(tDevice *device, eSCTFeature sctFeature, bool enableDisable, bool defaultValue, bool isVolatile, uint16_t hdaTemperatureIntervalOrState)
    //
    //! \brief   Description:  set a SCT feature to a specific value using SCT (SMART command transport)
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param sctFeature - the code of the SCT feature to change
    //!   \param enableDisable - true = enable, false = disable
    //!   \param defaultValue - restore to drive's default value
    //!   \param isVolatile - true = volatile change (cleared on reset/power cycle), false = non-volatile change
    //!   \param hdaTemperatureIntervalOrState - used for the HDA Temperature interval feature code only to change the state or frequency of the logging.
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = sct not supported or feature not supported
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int sct_Set_Feature_Control(tDevice *device, eSCTFeature sctFeature, bool enableDisable, bool defaultValue, bool isVolatile, uint16_t hdaTemperatureIntervalOrState);

    //-----------------------------------------------------------------------------
    //
    //  sct_Get_Feature_Control(tDevice *device, eSCTFeature sctFeature, bool enableDisable, bool defaultValue, bool isVolatile, uint16_t hdaTemperatureIntervalOrState)
    //
    //! \brief   Description:  get a SCT feature's information using SCT (SMART command transport)
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param sctFeature - the code of the SCT feature to change
    //!   \param enableDisable - true = enable, false = disable
    //!   \param defaultValue - restore to drive's default value
    //!   \param hdaTemperatureIntervalOrState - used for the HDA Temperature interval feature code only to change the state or frequency of the logging.
    //!   \param featureOptionFlags - option flags specific to the feature
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = sct not supported or feature not supported
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int sct_Get_Feature_Control(tDevice *device, eSCTFeature sctFeature, bool *enableDisable, bool *defaultValue, uint16_t *hdaTemperatureIntervalOrState, uint16_t *featureOptionFlags);

    typedef enum _eSCTErrorRecoveryCommand
    {
        SCT_ERC_READ_COMMAND,
        SCT_ERC_WRITE_COMMAND
    }eSCTErrorRecoveryCommand;

    //-----------------------------------------------------------------------------
    //
    //  sct_Set_Command_Timer(tDevice *device, eSCTErrorRecoveryCommand ercCommand, uint32_t timerValueMilliseconds)
    //
    //! \brief   Description:  Set the SCT Error recovery command timeout value
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param ercCommand - specifies if the timer is for read or write commands
    //!   \param timerValueMilliseconds - how long to set the timer to in milliseconds
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = sct not supported or feature not supported
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int sct_Set_Command_Timer(tDevice *device, eSCTErrorRecoveryCommand ercCommand, uint32_t timerValueMilliseconds);

    //-----------------------------------------------------------------------------
    //
    //  sct_Get_Command_Timer(tDevice *device, eSCTErrorRecoveryCommand ercCommand, uint32_t timerValueMilliseconds)
    //
    //! \brief   Description:  Get the SCT Error recovery command timeout value
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param ercCommand - specifies if the timer is for read or write commands
    //!   \param timerValueMilliseconds - how long to set the timer to in milliseconds
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = sct not supported or feature not supported
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int sct_Get_Command_Timer(tDevice *device, eSCTErrorRecoveryCommand ercCommand, uint32_t *timerValueMilliseconds);
    
    //-----------------------------------------------------------------------------
    //
    //  enable_Disable_SMART_Feature(tDevice *device, bool enable)
    //
    //! \brief   Description:  Enable or disable the SMART feature on a device
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param enable - true = set to enabled, false = set to disabled
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int enable_Disable_SMART_Feature(tDevice *device, bool enable);
    
    //-----------------------------------------------------------------------------
    //
    //  enable_Disable_SMART_Attribute_Autosave(tDevice *device, bool enable)
    //
    //! \brief   Description:  Enable or disable the SMART Attribute Autosave feature on a device
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param enable - true = set to enabled, false = set to disabled
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int enable_Disable_SMART_Attribute_Autosave(tDevice *device, bool enable);

    //-----------------------------------------------------------------------------
    //
    //  enable_Disable_SMART_Auto_Offline(tDevice *device, bool enable)
    //
    //! \brief   Description:  Enable or disable the SMART Auto Offline feature on a device
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param enable - true = set to enabled, false = set to disabled
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int enable_Disable_SMART_Auto_Offline(tDevice *device, bool enable);

    typedef struct _smartFeatureInfo
    {
        uint16_t smartVersion;
        //TODO: smart attributes?
        uint8_t offlineDataCollectionStatus;
        uint8_t selfTestExecutionStatus;
        uint16_t timeToCompleteOfflineDataCollection;//vendor specific in new specs
        uint8_t reserved;//also called vendor specific...
        uint8_t offlineDataCollectionCapability;
        uint16_t smartCapability;
        uint8_t errorLoggingCapability;
        uint8_t vendorSpecific;//or reserved
        uint8_t shortSelfTestPollingTime;
        uint8_t extendedSelfTestPollingTime;
        uint8_t conveyenceSelfTestPollingTime;
        uint16_t longExtendedSelfTestPollingTime;
        //a bunch more reserved bytes and vendor specific bytes
        //checksum
    }smartFeatureInfo, *ptrSmartFeatureInfo;

    //-----------------------------------------------------------------------------
    //
    //  get_SMART_Info(tDevice *device, ptrSmartFeatureInfo smartInfo)
    //
    //! \brief   Description:  Get SMART information from an ATA device (excludes vendor unique data and attributes)
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param smartInfo - pointer to structure to save SMART info to
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int get_SMART_Info(tDevice *device, ptrSmartFeatureInfo smartInfo);

    //-----------------------------------------------------------------------------
    //
    //  print_SMART_Info(tDevice *device, ptrSmartFeatureInfo smartInfo)
    //
    //! \brief   Description:  Print SMART information from an ATA device (excludes vendor unique data and attributes)
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param smartInfo - pointer to structure to save SMART info to
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int print_SMART_Info(tDevice *device, ptrSmartFeatureInfo smartInfo);

    OPENSEA_OPERATIONS_API int nvme_Print_Temp_Statistics(tDevice *device);

    OPENSEA_OPERATIONS_API int nvme_Print_PCI_Statistics(tDevice *device);

    typedef struct _informationalExceptionsControl
    {
        bool isValid;//the page was able to be read
        bool sixByteCommandUsed;//don't change this. for use when calling a set function after a get function.
        bool ps;//don't change this. for use when calling a set function after a get function.
        uint8_t deviceSpecificParameter;//only stored here in case we are performing a mode select command after reading the data. Recommended that this is not changed!
        bool perf;
        bool ebf;//enable device specific background functions (not related to bms)
        bool ewasc;//enable warning additional sense code
        bool dexcpt;//disable exception control
        bool test;//set test mode, device behaves as if there is an error
        bool ebackerr;//enable background error
        bool logerr;//log error. 1 = will log the error to informational exceptions log, 0 means it may or maynot.
        uint8_t mrie;
        uint32_t intervalTimer;
        uint32_t reportCount;
    }informationalExceptionsControl, *ptrInformationalExceptionsControl;

    typedef struct _informationalExceptionsLog
    {
        bool isValid;
        uint8_t additionalSenseCode;
        uint8_t additionalSenseCodeQualifier;
        uint8_t mostRecentTemperatureReading;
        //all other bytes are vendor specific
    }informationalExceptionsLog, *ptrInformationalExceptionsLog;

    //-----------------------------------------------------------------------------
    //
    //  get_SCSI_Informational_Exceptions_Info(tDevice *device, eScsiModePageControl mpc, ptrInformationalExceptionsControl controlData, ptrInformationalExceptionsLog logData)
    //
    //! \brief   Description:  Get SCSI Informational Exceptions information (SMART)
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param mpc - Default vs Saved vs Current information
    //!   \param controlData - pointer to structure to save mode page data to
    //!   \param logData - pointer to structure to save log page data to
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int get_SCSI_Informational_Exceptions_Info(tDevice *device, eScsiModePageControl mpc, ptrInformationalExceptionsControl controlData, ptrInformationalExceptionsLog logData);

    //-----------------------------------------------------------------------------
    //
    //  get_SCSI_Informational_Exceptions_Info(tDevice *device, eScsiModePageControl mpc, ptrInformationalExceptionsControl controlData, ptrInformationalExceptionsLog logData)
    //
    //! \brief   Description:  Set SCSI Informational Exceptions information (SMART). This should be called AFTER the get_SCSI_Informational_Exceptions_Info function since a mode sense is required before a mode select...
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param save - Set to true to make this change save across a power cycle. False to make this change without saving it.
    //!   \param controlData - pointer to structure to save mode page data to
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int set_SCSI_Informational_Exceptions_Info(tDevice *device, bool save, ptrInformationalExceptionsControl controlData);

    //-----------------------------------------------------------------------------
    //
    //  set_MRIE_Mode(tDevice *device, uint8_t mrieMode, bool driveDefault)
    //
    //! \brief   Description:  Set SCSI Informational Exceptions MRIE (Method of reporting informational exceptions) (SMART Check) (Changes when the condition is reported and the sense code used)
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param mrieMode - A value of 0 - 6. 0 = off, 6 = on request. See spec for mode details or use enum from scsi_helper.h
    //!   \param driveDefault - restore to the drive's default value
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int set_MRIE_Mode(tDevice *device, uint8_t mrieMode, bool driveDefault);


    #define SMART_ERROR_STATE_MASK 0x0F //highnibble is vendor unique. use this to look at the low nibble and match a state to the enum below
    typedef enum _eSMARTErrorState //Low nibble only!!! high nibble is vendor unique!
    {
        SMART_ERROR_STATE_UNKNOWN = 0x0,
        SMART_ERROR_STATE_SLEEP = 0x1,
        SMART_ERROR_STATE_STANDBY = 0x2,
        SMART_ERROR_STATE_ACTIVE_IDLE = 0x3,
        SMART_ERROR_STATE_EXECUTING_OFFLINE_TEST = 0x4,
        SMART_ERROR_STATE_RESERVED1 = 0x5,
        SMART_ERROR_STATE_RESERVED2 = 0x6,
        SMART_ERROR_STATE_RESERVED3 = 0x7,
        SMART_ERROR_STATE_RESERVED4 = 0x8,
        SMART_ERROR_STATE_RESERVED5 = 0x9,
        SMART_ERROR_STATE_RESERVED6 = 0xA,
        SMART_ERROR_STATE_VENDOR_SPECIFIC1 = 0xB,
        SMART_ERROR_STATE_VENDOR_SPECIFIC2 = 0xC,
        SMART_ERROR_STATE_VENDOR_SPECIFIC3 = 0xD,
        SMART_ERROR_STATE_VENDOR_SPECIFIC4 = 0xE,
        SMART_ERROR_STATE_VENDOR_SPECIFIC5 = 0xF
    }eSMARTErrorState;

    typedef struct _SMARTCommandDataStructure
    {
        uint8_t transportSpecific;//when command was initiated. If FFh, then this is a hardware reset
        uint8_t feature;
        uint8_t count;
        uint8_t lbaLow;
        uint8_t lbaMid;
        uint8_t lbaHi;
        uint8_t device;
        uint8_t contentWritten;//command register?
        uint32_t timestampMilliseconds;//since power on. can wrap
    }SMARTCommandDataStructure;

    typedef struct _ExtSMARTCommandDataStructure
    {
        uint8_t deviceControl;
        uint8_t feature;
        uint8_t featureExt;
        uint8_t count;
        uint8_t countExt;
        uint8_t lbaLow;
        uint8_t lbaLowExt;
        uint8_t lbaMid;
        uint8_t lbaMidExt;
        uint8_t lbaHi;
        uint8_t lbaHiExt;
        uint8_t device;
        uint8_t contentWritten;//command register?
        uint8_t reserved;
        uint32_t timestampMilliseconds;//since power on. can wrap
    }ExtSMARTCommandDataStructure;

    typedef struct _SMARTCommandErrorDataStructure
    {
        uint8_t reserved;
        uint8_t error;
        uint8_t count;
        uint8_t lbaLow;
        uint8_t lbaMid;
        uint8_t lbaHi;
        uint8_t device;
        uint8_t status;
        uint8_t extendedErrorInformation[19];//vendor specific
        uint8_t state;
        uint16_t lifeTimestamp; //POH when error occured
    }SMARTCommandErrorDataStructure;

    typedef struct _ExtSMARTCommandErrorDataStructure
    {
        uint8_t transportSpecific;
        uint8_t error;
        uint8_t count;
        uint8_t countExt;
        uint8_t lbaLow;
        uint8_t lbaLowExt;
        uint8_t lbaMid;
        uint8_t lbaMidExt;
        uint8_t lbaHi;
        uint8_t lbaHiExt;
        uint8_t device;
        uint8_t status;
        uint8_t extendedErrorInformation[19];//vendor specific
        uint8_t state;
        uint16_t lifeTimestamp; //POH when error occured
    }ExtSMARTCommandErrorDataStructure;

    typedef struct _SMARTErrorDataStructure
    {
        uint8_t version;
        uint8_t numberOfCommands;//number of commands logged before the error. Between 0 and 5
        bool extDataStructures;//when true, the data structures are for ext commands (ext comprehensive vs comprehensive/summary logs)
        union {
            SMARTCommandDataStructure command[5];
            ExtSMARTCommandDataStructure extCommand[5];
        };
        union {
            SMARTCommandErrorDataStructure error;
            ExtSMARTCommandErrorDataStructure extError;
        };
    }SMARTErrorDataStructure;

    #define SMART_SUMMARY_ERRORS_MAX UINT8_C(5) //defined as this in ATA spec
    typedef struct _summarySMARTErrorLog
    {
        uint8_t version;
        uint8_t numberOfEntries;//max of 5
        SMARTErrorDataStructure smartError[SMART_SUMMARY_ERRORS_MAX];//sorted in order from most recent to oldest
        uint16_t deviceErrorCount;
        bool checksumsValid;
    }summarySMARTErrorLog, *ptrSummarySMARTErrorLog;

    #define SMART_COMPREHENSIVE_ERRORS_MAX UINT8_C(25) //255 is the maximum allowed by the spec. We are doing less than this since we don't have products supporting more than this.
    #define SMART_EXT_COMPREHENSIVE_ERRORS_MAX UINT8_C(100) //65532 is the maximum allowed by the spec. We are doing less than this since we don't have products supporting more than this. Other vendors might though...

    typedef struct _comprehensiveSMARTErrorLog
    {
        uint8_t version;
        uint8_t numberOfEntries;
        bool extLog;
        //TODO: This union isn't really needed...Can remove this sometime
        union
        {
            SMARTErrorDataStructure smartError[SMART_COMPREHENSIVE_ERRORS_MAX];//sorted in order from most recent to oldest
            SMARTErrorDataStructure extSmartError[SMART_EXT_COMPREHENSIVE_ERRORS_MAX];//sorted in order from most recent to oldest
        };
        uint16_t deviceErrorCount;
        bool checksumsValid;
    }comprehensiveSMARTErrorLog, *ptrComprehensiveSMARTErrorLog;

    //-----------------------------------------------------------------------------
    //
    //  get_ATA_Summary_SMART_Error_Log(tDevice * device, ptrSummarySMARTErrorLog smartErrorLog)
    //
    //! \brief   Description:  Get the ATA Summary SMART Error Log (will be ordered from most recent to oldest according to ATA spec) (only holds 28bit commands accurately)
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param smartErrorLog - pointer to the summary SMART error log structure to fill in
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int get_ATA_Summary_SMART_Error_Log(tDevice * device, ptrSummarySMARTErrorLog smartErrorLog);

    //-----------------------------------------------------------------------------
    //
    //  print_ATA_Summary_SMART_Error_Log(ptrSummarySMARTErrorLog errorLogData, bool genericOutput)
    //
    //! \brief   Description:  Print the ATA Summary SMART Error Log (will be ordered from most recent to oldest according to ATA spec) (only prints 28bit commands accurately due to 48bit truncation)
    //
    //  Entry:
    //!   \param errorLogData - pointer to the summary SMART error log structure to print out
    //!   \param genericOutput - true = generic output showing registers in hex. false = detailed output that is translated from the reported regiters according to ATA spec
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API void print_ATA_Summary_SMART_Error_Log(ptrSummarySMARTErrorLog errorLogData, bool genericOutput);

    //-----------------------------------------------------------------------------
    //
    //  get_ATA_Comprehensive_SMART_Error_Log(tDevice * device, ptrComprehensiveSMARTErrorLog smartErrorLog, bool forceSMARTLog)
    //
    //! \brief   Description:  Get the ATA (ext) Comprehensive SMART Error Log (will be ordered from most recent to oldest according to ATA spec). Automatically pulls Ext log when GPL is supported (48bit drive) for most accurate information
    //
    //  Entry:
    //!   \param device - pointer to the device structure
    //!   \param smartErrorLog - pointer to the comprehensive SMART error log structure to fill in
    //!   \param forceSMARTLog - set this to true to force a 48bit drive with GPL to read the SMART log instead. NOTE: not recommended as the SMART log can only hold 28bit commands. 48Bit may show up, but will be truncated to fit.
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API int get_ATA_Comprehensive_SMART_Error_Log(tDevice * device, ptrComprehensiveSMARTErrorLog smartErrorLog, bool forceSMARTLog);

    //-----------------------------------------------------------------------------
    //
    //  print_ATA_Comprehensive_SMART_Error_Log(ptrComprehensiveSMARTErrorLog errorLogData, bool genericOutput)
    //
    //! \brief   Description:  Print the ATA (ext) comprehensive SMART Error Log (will be ordered from most recent to oldest according to ATA spec)
    //
    //  Entry:
    //!   \param errorLogData - pointer to the summary SMART error log structure to print out
    //!   \param genericOutput - true = generic output showing registers in hex. false = detailed output that is translated from the reported regiters according to ATA spec
    //  Exit:
    //!   \return SUCCESS = pass, FAILURE = failed to change the feature, NOT_SUPPORTED = feature not supported on this device
    //
    //-----------------------------------------------------------------------------
    OPENSEA_OPERATIONS_API void print_ATA_Comprehensive_SMART_Error_Log(ptrComprehensiveSMARTErrorLog errorLogData, bool genericOutput);

#if defined (__cplusplus)
}
#endif
